KR102104434B1 - Washing Machine - Google Patents

Abstract

The present invention relates to a washing machine.
The washing machine according to the embodiment of the present invention includes an outer tub in which washing water is accommodated; A water supply valve that opens and closes the flow path of the washing water supplied to the outer tub; A control unit for controlling the water supply valve; A main pcb electrically connected to the control unit; And a water level sensing device disposed separately from the main pcb to detect a capacitance changed according to the water level of the washing water accommodated in the outer tub.

Description

Washing machine {Washing Machine}

The present invention relates to a washing machine, and more particularly, to a water level sensing device for sensing the water level of the washing water supplied to the washing machine.

The washing machine is equipped with a water level sensing device that detects the water level and outputs it to the control unit to automatically supply and drain water. The water level detecting device opens the water supply valve according to the amount of laundry in the washing tank to start water supply in the washing tank. It makes the inner water level adjustable. Accordingly, the washing machine can perform efficient washing by preventing waste of water and properly adjusting the amount of washing water supplied.

However, the conventional water level detecting device has a structure in which the water pressure of the water supplied to the washing water has to move the diaphragm supported by the compression coil spring. Since such a conventional water level sensing device has to overcome the elasticity of the compression coil spring, the sensitivity is deteriorated, so there is a problem that it is impossible to precisely control the water supply amount.

The problem to be solved by the present invention is to improve the accuracy of the water level sensing device to detect low water levels.

Another object of the present invention is to separate the water level sensing device from the main pcb (800).

Another object of the present invention is to increase the water tightness of the water level sensing device and to reduce the corrosiveness.

The problems of the present invention are not limited to the problems mentioned above, and other problems not mentioned will be clearly understood by those skilled in the art from the following description.

In order to achieve the above object, the washing machine according to an embodiment of the present invention includes an outer tank in which washing water is received; A water supply valve that opens and closes the flow path of the washing water supplied to the outer tub; A control unit for controlling the water supply valve; A main pcb electrically connected to the control unit; And a water level sensing device that is disposed separately from the main pcb and detects an electrostatic capacity changed according to the water level of the wash water accommodated in the outer tub.

Details of other embodiments are included in the detailed description and drawings.

According to the present invention, there are one or more of the following effects.

First, the sensitivity of the sensor is high, so the low water level can be accurately measured.

Second, since the size of the sensor is reduced, the mounting position is free.

Third, it can be separated from the main pcb, increasing design freedom.

Fourth, water tightness is excellent, and heat resistance and corrosion resistance are improved.

The effects of the present invention are not limited to the effects mentioned above, and other effects not mentioned will be clearly understood by those skilled in the art from the description of the claims.

1 is a cross-sectional view of a washing machine according to an embodiment of the present invention.
2 is a block diagram showing a water level sensing device and a peripheral configuration according to an embodiment of the present invention.
3 is a cross-sectional view of a diaphragm and a sensor pcb according to an embodiment of the present invention.
4 shows various embodiments of a diaphragm according to an embodiment of the present invention.
5 is a partial cross-sectional view of a water level sensing device according to an embodiment of the present invention.
6 is a perspective view of a water level sensing device according to an embodiment of the present invention.
7 is an exploded perspective view of a water level detecting device according to an embodiment of the present invention.
8 is a bottom view of the water level sense according to an embodiment of the present invention.
9 is a perspective view of a water level sensing device according to another embodiment of the present invention.

Advantages and features of the present invention, and methods for achieving them will be clarified with reference to embodiments described below in detail together with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but may be implemented in various different forms, and only the embodiments allow the disclosure of the present invention to be complete, and common knowledge in the technical field to which the present invention pertains. It is provided to completely inform the person having the scope of the invention, and the present invention is only defined by the scope of the claims. The same reference numerals refer to the same components throughout the specification.

Hereinafter, the present invention will be described with reference to drawings for describing a washing machine according to embodiments of the present invention.

1 is a cross-sectional view of a washing machine 1 according to an embodiment of the present invention. 2 is a block diagram showing a water level sensing device 80 and a peripheral configuration according to an embodiment of the present invention. 3 is a cross-sectional view of the diaphragm 110 and the sensor pcb 300 according to an embodiment of the present invention.

1 to 3, the washing machine 1 according to the present invention includes an outer tank 4 in which washing water is accommodated; A water supply valve 810 that opens and closes the flow path of the washing water supplied to the outer tank 4; Control unit for controlling the water supply valve 810; A main pcb 800 electrically connected to the control unit; A hose 40 connected to the outer tub 4; A diaphragm 110 that is deformed corresponding to pneumatic pressure transmitted through the hose 40 to measure the water level of the washing water accommodated in the outer tub 4; And a sensor pcb 300 on which the diaphragm 110 is mounted.

The washing machine 1 according to the present invention includes an outer tank 4 in which washing water is accommodated; A water supply valve 810 that opens and closes the flow path of the washing water supplied to the outer tank 4; Control unit for controlling the water supply valve 810; A main pcb 800 electrically connected to the control unit; And a water level detecting device 80 which is disposed separately from the main pcb 800 and detects the electrostatic capacity changed according to the water level of the washing water accommodated in the outer tank 4.

The washing machine 1 includes a casing 1 forming an exterior and a leg assembly 10 coupled to a lower portion of the casing 1. The casing (1) is formed so that the upper and lower surfaces are open, the cabinet (2) constituting the side surface of the washing machine (1), the top cover (3) installed to cover the open upper surface of the cabinet (2), and the cabinet ( It includes a base 5 installed on the open lower surface of 2).

 In the cabinet (2), an outer tank (4) for receiving water, an inner tank (6) disposed inside the outer tank (4) for receiving laundry, and a driving device (8) such as a motor for driving the inner tank (6) And, a water supply assembly for supplying water to the interior of the outer tank 4, and a drainage assembly 20 for draining water in the outer tank 4 after washing or dehydration is completed. In addition, the casing (1) is further installed on the top cover (3) further includes a detergent supply unit 30 for temporary storage of detergent. The detergent supply unit 30 is connected to the water supply assembly and is formed to supply detergent into the inner tank 6 together with water to be supplied.

 The top cover 3 is formed with a fabric entrance hole 3a so that a fabric can be inserted or taken out. The top cover 3 is provided with a door for opening and closing the fore entrance hole 3a. The door may be made of at least a part of glass so that the inside can be seen. In addition, a display panel 7 for inputting an operation of the washing machine 1 or displaying an operating state of the washing machine 1 is mounted on one side of the top cover 3. The outer tank 4 is arranged to be suspended by a plurality of suspensions 15 on the inner upper part of the cabinet 2. One end of the suspension 15 is coupled to the inner upper part of the cabinet 2, and the other end can be coupled to the lower part of the outer tub 4.

A pulsator 9 for forming a rotational flow of water accommodated in the outer tank 4 is provided on the bottom surface of the inner tank 6. The pulsator 9 is formed integrally with the inner tank 6, and it is also possible for the inner tank 6 and the pulsator 9 to rotate together when the motor rotates, and the pulsator 9 is separate from the inner tank 6 It is formed, it is also possible to rotate separately when the motor rotates.

The upper side of the inner tank 6 is provided with a balancer 12 for preventing the inner tank 6 from losing balance due to the bias of the fabric. The balancer 12 may be a liquid balancer filled with a liquid such as brine inside. On the upper side of the outer tank 4, an outer shell cover 14 is provided to prevent the fabric from falling off and water scattering. The water level sensing device may include a microelectromechanical systems (MEMS) sensor. MEMS is a micro-technology that refers to a device that integrates mechanical parts, sensors , actuators , and electronic circuits on a single silicon substrate. MEMS is mainly manufactured using semiconductor integrated circuit manufacturing technology, and the manufacturing process of MEMS includes a manufacturing process called etching .

The water level sensing device 80 according to the present invention may form the movable electrode 140 on the diaphragm 110. The formation of the movable electrode 140 may be performed by a semiconductor manufacturing process. The water level sensing device 80 detects the capacitance between the movable electrode 140 and the opposing fixed electrode 130. The detected capacitance is transmitted to the main pcb 800 in which the control unit is disposed. The hose 40 is connected to the outer tank 4 and transmits water pressure to the outer tank 4 to the water level sensing device 80. The hose 40 connects the outer tank 4 and the water level sensing device 80. The diaphragm 110 is disposed on the sensor pcb 300. The diaphragm 110 is made of silicon material. Silicon can be made into a conductor by injecting suitable impurities. Therefore, the diaphragm 110 is a movable electrode 140 that is deformed by pressure, the diaphragm 100 is formed on the whole, a part, or is formed on the flat plate portion 105 to be described later, and the fixed electrode 130 It may be formed only in the center of the corresponding plate portion 105.

In another embodiment, the strain gauge resistance 125 may be formed on the surface of the diaphragm 120 to cause a change in the resistance value when the diaphragm 120 is deformed. The strain gauge resistance 125 is a type of pressure sensor using the piezo-resistance effect of a semiconductor single crystal. The capacitive type is more sensitive than the piezo-resistive type.

The sensor pcb 300 according to an embodiment of the present invention is disposed above the maximum water level h of the outer tank 4. The sensor pcb 300 is also formed separately from the main pcb 800. The sensor pcb 300 is disposed close to the hose 40. The sensor pcb 300 may be disposed above the outer tub 4 for watertightness. The sensor pcb 300 is disposed below the main pcb 800.

The washing machine 1 according to the present invention includes a fixed electrode 130; And a movable electrode 140 that is deformed according to the water level of the wash water accommodated in the outer tank 4. A hose 40 is disposed on one side of the fixed electrode 130 and a movable electrode 140 is disposed on the other side. The fixed electrode 130 may be disposed on the sensor pcb 300. The distance d between the fixed electrode 130 and the movable electrode 140 varies depending on the water level. When the distance d between the fixed electrode 130 and the movable electrode 140 changes, the capacitance changes.

The movable electrode 140 is formed on the diaphragm 110 made of silicon. The movable electrode 140 is formed of a material that is easily deformable. The movable electrode 140 may be formed of silicon. The movable electrode 140 may be formed on the diaphragm 110.

The washing machine 1 according to the present invention further includes a hose 40 for transmitting air pressure, which varies depending on the level of the washing water, to the water level sensing device 80, and the water level sensing device 80 is through the hose 40. It further includes a diaphragm 110 that is deformed according to the transmitted pneumatic pressure. The hose 40 connects the outer tank 4 and the water level sensing device 80. The hose 40 is disposed at a portion close to the bottom of the outer tub 4. The water pressure applied to the outer tank 4 is transmitted to the water level sensing device 80 through the hose 40. The water pressure received by the bottom surface of the outer tank 4 and the air pressure transmitted to the water level sensing device 80 may be the same.

4 shows various embodiments of the diaphragm 110 according to an embodiment of the present invention. Referring to FIG. 4, the diaphragm 110 includes a support portion 101 forming a side wall; A movable electrode forming part 105 having a movable electrode 140 and an edge connected to the supporting part 101; And a balance maintaining unit 107 and 108 disposed on the movable electrode forming unit 105 so that the movable electrode 140 moves in parallel with the fixed electrode 130. The edges of the balance holding parts 107 and 108 have the same shape as the edges of the movable electrode forming part 105, and the sizes of the balance holding parts 107 and 108 are movable electrode forming parts so as not to interfere with the support 101. It is formed smaller than the size of (105).

The separation space 103 is a space between the support part 101 and the balance maintaining parts 107 and 108. The separation space 103 is required to have a gap such that the support portion does not interfere with the up-and-down motion of the balance maintaining portions 107 and 108.

The movable electrode 140, the balance maintaining parts 107 and 108, the movable electrode forming part 105 and the support may be integrally formed by silicon. The movable electrode 140 may be formed in any part of the movable electrode forming unit 105, but is preferably formed concentrically with the movable electrode forming unit 105.

Since the movable electrode 140 is formed of silicon, deformation is easy. Accordingly, only a central portion of the movable electrode 140 may protrude when a pneumatic change. In this case, the water level detecting device 80 outputs a nonlinear output to the water level. The capacitance varies depending on the distance d between the movable electrode 140 and the fixed electrode 130. Therefore, it is difficult to detect an accurate water level when the distance d at the center of the movable electrode 140 is different from the distance d at the edge of the movable electrode 140.

When the movable electrode 140 maintains parallel to the fixed electrode 130 and is displaced, an output proportional to pneumatic pressure can be obtained. The balance holding parts 107 and 108 are formed on one side of the movable electrode forming part 105 to prevent deformation of the movable electrode forming part 105. Since the movable electrode forming unit 105 is disposed below the balance maintaining units 107 and 108 and the movable electrode 140 is formed in the movable electrode forming unit 105, the shape of the movable electrode 140 is also maintained. Therefore, the movable electrode 140 moves up and down while maintaining parallel with the fixed electrode 130. The balance maintaining units 107 and 108 function to cause the water level detecting device 80 to output linearly with respect to changes in water level. The equilibrium holding part 107 may have a rectangular parallelepiped shape. The equilibrium holding part 108 may be cylindrical. Although not shown, the balance maintaining portion may be a hemisphere shape or a donut shape. The support part 101 is mounted on the sensor pcb 300. An equilibrium holding portion is formed on one surface of the movable electrode forming portion, and a movable electrode is formed on the other surface. The balance maintaining part may have the same shape as the movable electrode forming part.

5 is a partial cross-sectional view of the water level sensing device 80 according to an embodiment of the present invention.

Referring to FIG. 5, the water level sensing device 80 further includes an air cap 200 connected to the hose 40 so that the pressure of the air flowing through the hose 40 reaches the diaphragm 110. The sensor pcb 300 and the diaphragm 110 are coupled so that air introduced into the air cap 200 does not flow between the movable electrode 140 and the fixed electrode 130. Air cap 200, a tunnel through which air flows is formed, the hose connection portion 210 is connected to the hose 40; And a receiving unit 230 in which parts electrically connected to the sensor pcb 300 are accommodated.

The accommodating portion 230 is in close contact so that air introduced through the hose connection portion 210 is not discharged between the sensor pcb 300. One side of the air cap 200, the hose 40 is inserted, the other side is formed to be coupled to the sensor pcb. One side of the air cap 200 is formed with a hose connection portion 210, the other side of the air cap 200 is formed with a receiving portion 230.

The air flowing through the hose 40 flows into the receiving portion 230 through the hose connecting portion 210. The accommodating part 230 and the sensor pcb 300 are in close contact so that air introduced into the accommodating part 230 is not discharged to the outside. This is because the pressure of the air introduced into the accommodating portion 230 must be transmitted to the diaphragm 110 without loss. Therefore, the sensor pcb 300 and the air cap 200 and the sensor pcb 300 and the diaphragm 110 must be in close contact so that air does not flow into the gap.

The water level sensing device 80 further includes a sensor pcb 300 in which the diaphragm 110 is disposed, spaced apart from the main pcb 800, and electrically connected to the main pcb 800. The sensor pcb 300 is also formed separately from the main pcb 800. Information input from a user through a control panel (not shown) is transmitted to the main pcb 800. The control unit disposed on the main pcb 800 determines the water level through the signal input from the water level sensing device 80.

The sensor pcb 300 is disposed close to the hose 40. The sensor pcb 300 may be disposed above the outer tub 4 for watertightness. The sensor pcb 300 is disposed below the main pcb 800.

The space formed between the diaphragm 110 and the sensor pcb 300 can maintain atmospheric pressure. The sensor pcb 300 is a space formed between the diaphragm 110 and the fixed electrode 130, and a pressure holding hole p is formed to allow external air to flow therein. The air introduced through the hose 40 does not flow between the diaphragm 110 and the sensor pcb 300. In addition, a pressure holding hole p is formed in the sensor pcb 300. The pressure holding hole p communicates with the space between the sensor pcb 300 and the diaphragm 110. The pressure holding hole p is opened to allow external air to flow.

6 is a perspective view of a water level sensing device according to an embodiment of the present invention. 7 is an exploded perspective view of a water level detecting device according to an embodiment of the present invention. 8 is a bottom view of the water level sense according to an embodiment of the present invention.

6 to 8, the water level detecting device 80 according to the present invention is electrically connected to the sensor pcb 300 so as to transmit information to the outside, and is arranged in the opposite direction to the air cap 200 400 is further included. The water level detecting device 80 includes an air cap 200 connected to the hose 40 so that the pressure of the air flowing through the hose 40 reaches the diaphragm 110; Socat 400 is electrically connected to the sensor pcb 300 so as to transmit information to the outside, and disposed in the opposite direction to the air cap 200; And a housing 500 in which the air cap 200, the sensor pcb, and the socket 400 are stacked in the vertical direction.

The socket 400 serves as a terminal through which information collected from the sensor pcb 300 is transmitted to the main pcb 800. The socket 400 is disposed on the sensor pcb 300. Preferably, since the hose 40 is disposed on the lower side of the tub and extends upward, the air cap 200 is disposed on the lower side of the sensor pcb 300. A socat 400 may be disposed above the sensor pcb 300.

The plug 410 may be inserted into the socket 400. The plug 410 is inserted into the socket 400 so that the output signal of the sensor pcb 300 is transmitted to the main pcb 800. The plug 410 is connected to the main pcb 800.

The air cap 200 includes a hose connection portion 210 formed in communication with the hose 40 and elongated in the vertical direction; And a housing portion 230 through which a component electrically connected to the sensor pcb 300 is accommodated, and the housing 500 includes a base portion 510 through which the hose connection portion 210 passes; It includes a cover portion 530 extending upward from the base portion 510 to form a space in which the receiving portion 230, the sensor pcb 300, and the socket 400 are accommodated.

One side of the air cap 200, the hose 40 is inserted, the other side is formed to be coupled to the sensor pcb. One side of the air cap 200 is formed with a hose connection portion 210, the other side of the air cap 200 is formed with a receiving portion 230.

The air flowing through the hose 40 flows into the receiving portion 230 through the hose connecting portion 210. The housing 500 surrounds the air cap 200 and the sensor pcb 300. The housing 500 fixes the air cap 200 and the sensor pcb. The housing 500 serves to seal the sensor pcb 300. The housing 500 may serve to make the air cap 200 come into close contact with the sensor pcb 300.

The base portion 510 is formed under the housing 500. The hose connection portion 210 is inserted into the insertion portion 550. The receiving portion 230 is disposed inside the housing 500. The housing 500 may be fitted with a forced fitting air cap 200 so that the receiving portion 230 is in close contact with the sensor pcb. The base portion 510 contacts the receiving portion 230 and the hose connection portion 210. The incision surrounds a portion of the hose connection 210. The socket 400 may be disposed between the cover part 530 and the sensor pcb 300.

 One surface of the housing 500 is opened so that the sensor pcb, the air cap 200 and the socket 400 can be inserted. Since air may be introduced into the open portion, a space on one side of the diaphragm 110 communicating with the pressure holding hole p maintains atmospheric pressure.

The base portion 510 is formed with an insertion portion 550 cut in the transverse direction so that the hose connection portion 210 can be inserted in the transverse direction, and the hose connection portion 210 has a detachable chin at the rear of the insertion direction. It is formed, the insertion portion 550 is formed with a locking jaw 555 to which the removal prevention jaw 215 is locked to prevent any removal of the inserted hose connection portion 210.

The base portion 510 is formed with a contraction hole 557 that is opened so that the locking jaw 555 is elastically deformed in the transverse direction when the hose connection portion 210 is inserted. The hose connection part 210 is formed so that one side is rounded and the other side is angled. The rounded portion is formed in the direction of insertion into the insertion portion 550. The removal prevention jaw 215 is an angled portion. The removal prevention jaw 215 is caught by the locking jaw 555. The shrinking hole 557 is a free space formed so that the locking jaw 555 can move in the horizontal direction.

The washing machine 1 according to the present invention further includes a casing 2 that forms an exterior, and the water level sensing device 80 further includes a bracket 600 that combines the housing 500 and the casing 2. And, the housing 500 and the bracket 600 are fastened to each other with a snap hook 730 structure. The bracket connects the housing 500 and the casing 2. The bracket 500 and the housing 500 are connected to each other. For example, a bracket insertion groove is formed on the upper side of the bracket, and the bracket 600 and the housing 500 are connected by a snap hook 730 structure. The bracket is bent in an 'L' shape and mounted on the casing 2.

9 is a perspective view of a water level sensing device 80 according to another embodiment of the present invention. The same reference numerals used in FIGS. 9 to 1 to 9 perform the same function. Referring to FIG. 9, the washing machine 1 according to the present invention further includes a casing 2 forming an exterior, and the housing 500 includes a hook 730 penetrating the casing 2; And a pressure plate 710 that presses the casing 2 in the direction of the hook 730 so that the casing 2 and the hook 730 are in close contact.

The casing 2 is partially opened and is connected to the housing 500. A hook 730 is formed on one side of the housing 500, and the hook 730 is fitted to the casing 2. The hook 730 allows an attractive force to act between the housing 500 and the casing 2, and the pressure plate 710 allows the repulsive force to act between the housing 500 and the casing 2.

When explaining the operation of the washing machine 1 according to the present invention configured as described above are as follows. The pneumatic pressure transmitted through the hose 40 presses the diaphragm 110. Since the diaphragm 110 is formed with a movable electrode 140, the distance d between the movable electrode 140 and the fixed electrode 130 is changed. The capacitance is changed according to the distance d between the movable electrode 140 and the fixed electrode 130. The changed capacitance is transmitted to the sensor pcb 300 and transmitted to the main pcb 800 through the socket.

The control unit mounted on the main pcb 800 outputs the water level as a change in the measured capacitance. The control unit controls the water supply valve 810 based on the measured water level. On the other hand, since the water level sensing device 80 measures the change in the electrostatic capacity, it has a higher sensitivity than the conventional water level sensing device, so that it can measure accurately. In addition, since the size is reduced, including the diaphragm 110 formed of silicon, the mounting position is free and can be separated from the main pcb 800, thus increasing the degree of freedom in design. In addition, water tightness is excellent, and heat resistance and corrosion resistance are improved.

In the above, although the preferred embodiment of the present invention has been illustrated and described, the present invention is not limited to the specific embodiment described above, and the present invention belongs to the technical field to which the present invention belongs without departing from the gist of the present invention claimed in the claims. Of course, various modifications can be made by those skilled in the art, and these modifications should not be individually understood from the technical idea or prospect of the present invention.

1: washing machine 2: casing
4: Outer house 6: Inner house
40: hose 80: water level detection device
110, 120: diaphragm 101: support
103: separation space 105: movable electrode forming unit
107, 108: balance holding unit 130: fixed electrode
140: movable electrode 125: strain gauge resistance
200: Air cap 210: Hose connection
215: detachment prevention jaw 230: receiving portion
p: pressure holding hole 300: sensor pcb
400: Cat 410: Plug
500: housing 510: base
530: cover portion 550: insertion portion
555: locking jaw 557: shrinking hole
600: Bracat 730: Hook
710: pressure plate 810: water supply valve
800: main pcb

Claims (21)

An outer tank in which washing water is accommodated;
A water supply valve that opens and closes the flow path of the washing water supplied to the outer tub;
A control unit for controlling the water supply valve;
A main pcb electrically connected to the control unit;
A water level sensing device which is disposed separately from the main pcb and detects a capacitance changed according to the water level of the washing water accommodated in the outer tank; And
It includes a hose that delivers the air pressure, which varies depending on the level of the washing water to the water level detecting device,
The water level detecting device,
A diaphragm deformed according to pneumatic pressure transmitted through the hose;
An air cap connected to the hose so that the pressure of the air flowing through the hose reaches the diaphragm, the air cap including a hose connection formed in communication with the hose and elongated in the vertical direction; And
A housing in which an incision is formed so that the air cap can be inserted; Further comprising,
The hose connection portion, the removal prevention jaw is formed in the rear of the insertion direction,
The inserting part, a washing machine having a locking jaw on which the removal preventing jaw is locked to prevent any removal of the inserted hose connection part. According to claim 1,
Fixed electrode; And
A washing machine further comprising a movable electrode that is deformed according to the level of the washing water accommodated in the outer tub. According to claim 2,
The movable electrode is a washing machine formed on the diaphragm made of silicon. The method of claim 3,
The diaphragm,
A support portion forming a side wall;
A movable electrode forming part in which the movable electrode is formed and an edge is connected to the support part; And
A washing machine including an equilibrium holding part disposed on the movable electrode forming part so that the movable electrode moves while maintaining parallel with the fixed electrode. The method of claim 4,
The edge of the balance portion,
The movable electrode forming portion has the same shape as the edge,
The size of the balance holding portion,
A washing machine formed smaller than the size of the movable electrode forming portion so as not to interfere with the supporting portion. delete delete According to claim 2,
The water level detecting device,
Further comprising a sensor pcb on which the diaphragm is disposed,
The sensor pcb and the diaphragm,
A washing machine coupled to prevent air introduced into the air cap from flowing between the movable electrode and the fixed electrode. The method of claim 8,
The air cap,
A washing machine including a receiving portion for receiving a component electrically connected to the sensor pcb. The method of claim 9,
The receiving portion,
A washing machine in close contact so that air introduced through the hose connection is not discharged between the sensor pcb. According to claim 1,
The water level detecting device,
The washing machine further comprises a sensor pcb in which the diaphragm is disposed, spaced apart from the main pcb, and electrically connected to the main pcb. The method of claim 11,
The space formed between the diaphragm and the sensor pcb is a washing machine that maintains atmospheric pressure. The method of claim 12,
Fixed electrode; And
Further comprising a movable electrode that is deformed according to the water level of the wash water accommodated in the outer tub,
The sensor pcb,
A washing machine having a pressure holding hole to allow external air to flow into the space formed between the diaphragm and the fixed electrode. The method of claim 11,
A washing machine further comprising a socket that is electrically connected to the sensor pcb so as to transmit information to the outside and disposed in the opposite direction to the air cap. The method of claim 14,
The housing is a washing machine that accommodates the air cap, the sensor pcb, and the socket in a stacked state in the vertical direction. The method of claim 15,
The air cap,
It includes a receiving portion for receiving a component electrically connected to the sensor pcb,
The housing,
A base portion through which the hose connection portion passes;
A washing machine including a cover portion extending upward from the base portion to form a space in which the receiving portion, the sensor pcb, and the socket are accommodated. The method of claim 16,
The insertion portion, the washing machine is formed by cutting the base portion in the horizontal direction so that the hose connection portion can be inserted in the horizontal direction. The method of claim 17,
The base portion,
When the hose connection part is inserted, a washing machine is formed with a shrinking hole opened so that the locking jaw is elastically deformed in the lateral direction. A casing forming an appearance;
An outer tank in which washing water is accommodated;
A water supply valve that opens and closes the flow path of the washing water supplied to the outer tub;
A control unit for controlling the water supply valve;
A main pcb electrically connected to the control unit;
A water level sensing device which is disposed separately from the main pcb and detects a capacitance changed according to the water level of the washing water accommodated in the outer tank; And
It includes a hose that delivers the air pressure, which varies depending on the level of the washing water to the water level detecting device,
The water level detecting device,
A diaphragm deformed according to pneumatic pressure transmitted through the hose;
An air cap connected to the hose so that the pressure of the air flowing through the hose reaches the diaphragm; And
A housing in which an incision is formed so that the air cap can be inserted; Including,
The housing,
A hook penetrating the casing; And
A washing machine further comprising a pressure plate for pressing the casing in the hook direction so that the casing and the hook are in close contact. A casing forming an appearance;
An outer tank in which washing water is accommodated;
A water supply valve that opens and closes the flow path of the washing water supplied to the outer tub;
A control unit for controlling the water supply valve;
A main pcb electrically connected to the control unit;
A water level sensing device which is disposed separately from the main pcb and detects a capacitance changed according to the water level of the washing water accommodated in the outer tank; And
It includes a hose that delivers the air pressure, which varies depending on the level of the washing water to the water level detecting device,
The water level detecting device,
A diaphragm deformed according to pneumatic pressure transmitted through the hose;
An air cap connected to the hose so that the pressure of the air flowing through the hose reaches the diaphragm;
A housing in which an incision is formed so that the air cap can be inserted; And
It includes a bracket for coupling the housing and the casing,
The housing and the bracket are washing machines that are fastened to each other with a snap hook structure. The method of claim 11,
The sensor pcb is a washing machine disposed above the maximum water level of the outer tub.

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